Pu Fen. EXPERIMENTAL STUDIES OF CONTINUOUS TUNING AND FREQUENCY PULLING EFFECT IN MULTIAT-MOSPHERE CO2 LASER[J]. Journal of Electronics & Information Technology, 1981, 3(1): 35-38.
Citation:
Pu Fen. EXPERIMENTAL STUDIES OF CONTINUOUS TUNING AND FREQUENCY PULLING EFFECT IN MULTIAT-MOSPHERE CO2 LASER[J]. Journal of Electronics & Information Technology, 1981, 3(1): 35-38.
Pu Fen. EXPERIMENTAL STUDIES OF CONTINUOUS TUNING AND FREQUENCY PULLING EFFECT IN MULTIAT-MOSPHERE CO2 LASER[J]. Journal of Electronics & Information Technology, 1981, 3(1): 35-38.
Citation:
Pu Fen. EXPERIMENTAL STUDIES OF CONTINUOUS TUNING AND FREQUENCY PULLING EFFECT IN MULTIAT-MOSPHERE CO2 LASER[J]. Journal of Electronics & Information Technology, 1981, 3(1): 35-38.
Experimental studies on the continuous tuning and frequency pulling in a grating tuning multiatmosphere CO2 laser is reported. Agermanium prism beam expanding telescope or a spherical mirror beam expanding telescope is used in the cavity to improving the frequency selectivity of the dispersion cavity and enlarge the beam exposed area of the grating. In this way, we achieve at continuous tuning with nearly no pulling effect in the continuous tuning and the grating is also effectively protected.
万重怡等,电子学报,1978,第1期第42页.[2]V. N. Bagratashvili, et al., Opt. Commun.,9(1973), 135.[3]V. N. Bagratashvili, et al., Sov. J. Quart. Electron., 6(1976), 541.
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